Stepwise Engineering the Pore Aperture of a Cage‐like MOF for the Efficient Separation of Isomeric C4 Paraffins under Humid Conditions

Author:

Wang Lu12,Xue Wenjuan13,Zhu Hejin1,Guo Xiangyu13,Huang Hongliang13ORCID,Zhong Chongli13

Affiliation:

1. State Key Laboratory of Separation Membranes and Membrane Processes Tiangong University No. 399 Binshui West Road, Xiqing District Tianjin 300387 P. R. China

2. College of Chemical Engineering and Materials Handan University Handan 056005 Hebei Province P. R. China

3. School of Chemical Engineering and Technology Tiangong University No. 399 Binshui West Road, Xiqing District Tianjin 300387 P. R. China

Abstract

AbstractThe separation of isomeric C4 paraffins is an important task in the petrochemical industry, while current adsorbents undergo a trade‐off relationship between selectivity and adsorption capacity. In this work, the pore aperture of a cage‐like Zn‐bzc (bzc=pyrazole‐4‐carboxylic acid) is tuned by the stepwise installation methyl groups on its narrow aperture to achieve both molecular‐sieving separation and high n‐C4H10 uptake. Notably, the resulting Zn‐bzc‐2CH3 (bzc‐2CH3=3,5‐dimethylpyrazole‐4‐carboxylic acid) can sensitively capture n‐C4H10 and exclude iso‐C4H10, affording molecular‐sieving for n‐C4H10/iso‐C4H10 separation and high n‐C4H10 adsorption capacity (54.3 cm3 g−1). Breakthrough tests prove n‐C4H10/iso‐C4H10 can be efficiently separated and high‐purity iso‐C4H10 (99.99 %) can be collected. Importantly, the hydrophobic microenvironment created by the introduced methyl groups greatly improves the stability of Zn‐bzc and significantly eliminates the negative effect of water vapor on gas separation under humid conditions, indicating Zn‐bzc‐2CH3 is a new benchmark adsorbent for n‐C4H10/iso‐C4H10 separation.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Tianjin Science and Technology Program

Publisher

Wiley

Subject

General Medicine

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